RU108542U1 - MULTILAYER PIPE FOR WATER AND HEATING SYSTEMS - Google Patents

Abstract

 1. A multilayer pipe for water supply and heating systems, made in the form of the outer and inner layers of thermoplastic material, between which there is an intermediate layer interfaced with the outer and inner layers through adhesive layers, while the outer and inner layers are made of polypropylene by a random copolymer with ethylene having an amorphous-crystalline structure, including hexagonal crystallites and monoclinic crystallites, and / or from polypropylene by a random copolymer with ethylene having amo an rfno-crystalline structure, including crystallites of only a monoclinic structure, and the intermediate layer is made of a mixture of a copolymer of ethyl vinyl alcohol as a base with fiberglass segments having a length in the range from 0.3 to 15 mm and a diameter of 10-50 μm as a filler which are contained in an amount of 15-29 wt.%, while the ratio of the thickness of the intermediate layer to the sum of the thicknesses of the outer and inner layers is 0.2-0.7, and the outer diameter of the pipe lies in the range from 20 to 225 mm. ! 2. The pipe according to claim 1, characterized in that the copolymer of ethyl vinyl alcohol with ethylene is used as the basis for the intermediate layer. ! 3. The pipe according to claim 1, characterized in that the adhesive layers are made of a material based on a polymer acrylic base. ! 4. The pipe according to claim 1, characterized in that the adhesive layers are made of a material based on a polymer vinyl acetate or vinyl chloride base.

Description

The utility model relates to the construction industry, and specifically to a multilayer pipe for water supply and heating systems, which can be used to organize in buildings and structures for various purposes systems designed for water supply or heating.

A multilayer pipe for water supply and heating systems is known including the outer and inner layers produced by the coextrusion technology, between which an intermediate layer is located. The outer and inner layers are made of a polypropylene copolymer. The intermediate layer is made of aluminum (aluminum foil). Adhesive layers are located between the intermediate layer and the outer and inner layers (CN 101423733 A, IPC C09J 123/14? 2009).

When installing a pipeline from such pipes when welding with fittings, couplings and other parts, measures must be taken to prevent water from entering the zone between the aluminum layer and the polypropylene layers, since otherwise the pipe will delaminate and lose tightness. To eliminate this phenomenon, they either clean the pipe before removing the aluminum layer in the weld zone, which reduces the strength in the joint, or measures are taken to guarantee the melting of the aluminum layer at the pipe end. The first case, obviously, negatively affects the operation of the pipeline and leads to the need to increase the thickness of the inner layer of the pipe. In the second case, requirements are increasing for the accuracy of assembly, for improving the qualifications of installers, and for the use of more expensive equipment when installing the pipeline. The main disadvantage of pipes, including an intermediate layer of aluminum, leading to their appreciation, is the use of aluminum foil and the complexity of the equipment for their manufacture, due to the presence of complex nodes for forming the aluminum layer.

A multilayer pipe for water supply and heating systems is known including the outer and inner layers produced by the coextrusion technology, between which an intermediate layer is located. The outer and inner layers are made of a polypropylene copolymer. The intermediate layer is made of a mixture of a copolymer of polypropylene with pieces of fiberglass and / or basalt fiber for stabilizing linear thermal expansion. The intermediate layer may include from 15 to 29 wt.% Segments of fibers. It is also provided that ethylene vinyl alcohol is introduced into the intermediate layer to provide gas insulation (WO 2011016747 A1, IPC F16L 9/12, 02/10/2011).

The composition for the manufacture of the intermediate layer cannot be balanced efficiently enough to provide both the stabilization function of the linear thermal expansion and the gas permeation prevention function, especially to prevent the penetration of oxygen into the pipe. This is due to the fact that it is impossible to introduce a sufficient amount of ethylene vinyl alcohol in the composition of the copolymer of polypropylene with ethylene in combination with the presence of a filler of fiber fibers in this layer.

The technical result of this utility model is effective gas insulation of a multilayer pipe while simplifying its manufacturing technology by using only extrusion equipment and equipment for applying adhesive material between the inner, intermediate and outer layers, which makes it possible to reduce the cost of pipe production, as well as its high performance, allowing to minimize material consumption of a pipe.

The achievement of these technical results provides a multilayer pipe for water supply and heating systems, made in the form of the outer and inner layers of thermoplastic material, between which there is an intermediate layer, interfaced with the outer and inner layers through adhesive layers, while the outer and inner layers are made of random polypropylene a copolymer with ethylene having an amorphous crystalline structure, including hexagonal crystallites and monoclinic crystallites, and / or from polypropylene by a random copolymer with ethylene having an amorphous-crystalline structure, including crystallites of only a monoclinic structure, and the intermediate layer is made of a mixture of a copolymer of ethyl vinyl alcohol as a base with fiberglass segments as a filler.

In the mixture of the intermediate layer in the best embodiment, pieces of glass fiber having a length in the range of 0.3 to 15 mm and a diameter of 10-50 microns can be used. In the best case, the mixture of the intermediate layer contains 15-29 wt.% Segments of fiberglass. In these embodiments, the best possible stabilization of linear thermal expansion.

Use for the outer or inner layers of polypropylene by random copolymer with ethylene having an amorphous-crystalline structure, including hexagonal crystallites and monoclinic crystallites. When using this material, which is characterized by high strength, it provides the maximum opportunity to optimize the geometric parameters of the pipe for the specified operational parameters of the water supply or heating system. When performing one of the layers of this material for another, it is possible to use polypropylene by a random copolymer with ethylene having an amorphous-crystalline structure, including crystallites of only a monoclinic structure. It is also possible to use for the manufacture of both layers of polypropylene a random copolymer with ethylene having an amorphous-crystalline structure, including crystallites of only a monoclinic structure. In this embodiment, the pipe also has high performance.

In the best embodiment, a copolymer of ethyl vinyl alcohol with ethylene is used as the base of the intermediate layer. Ethyl vinyl alcohol, or rather a copolymer of ethyl vinyl alcohol with ethylene, is well known to have high barrier properties with respect to gases, including oxygen and steam, which makes the pipe, the body of which includes a layer of a copolymer of ethyl vinyl alcohol with ethylene, gas-tight. It should be noted that to ensure gas impermeability, a thickness of 1 micron of ethyl vinyl alcohol layer is sufficient with its high content in ethylene. At the same time, the presence of fiberglass segments with the above parameters is not affected in the gas permeability reduction, and the intermediate layer can also be obtained by extrusion.

In the best embodiment, the adhesive layers are made of a polymer-based acrylic material. The adhesive layers can be made of a material, on a polymer vinyl acetate or vinyl chloride basis. Can be used in the manufacture of pipes aqueous suspension or emulsion of these components. Other materials can be used to provide adhesion in the form of suspensions, emulsions, solutions in solvents, including organic, or in the form of melts. In this case, the strength of the layer of adhesive material and its high adhesive properties with respect to the materials of the mating outer, intermediate and inner layers should be ensured to prevent delamination of the pipe.

In the best embodiment, the geometric parameters of the outer, intermediate and inner layers must satisfy the condition: the ratio of the thickness of the intermediate layer to the sum of the thicknesses of the outer and inner layer is 0.2-0.7. The fulfillment of this condition is allowed to achieve optimal conditions for achieving the above technical result. During installation, the reliable intermediate layer is melted and insulated, which, in particular, is facilitated by the use of thermoplastic materials for the outer, inner and intermediate layers.

The drawing shows an example of a multilayer pipe made in accordance with the present utility model for water supply and heating systems having an outer 1 and an inner 2 layers, between which an intermediate layer 3 is located, conjugated with the outer 1 and the inner 2 layers through adhesive layers 4 and 5.

The outer 1 and inner 2 layers are made of polypropylene by a random copolymer with ethylene having an amorphous-crystalline structure, including hexagonal crystallites, as well as monoclinic crystallites. This material is known as PP-RCT. However, for the manufacture of one or both layers (outer, inner), as noted above, it is possible to use polypropylene by a random copolymer with ethylene having an amorphous-crystalline structure, including crystallites of only a monoclinic structure. This material is known as PPR. From it, it is preferable to make the outer layer 1.

The intermediate layer 3 is made of a mixture of fiberglass segments (filler) with a copolymer of ethyl vinyl alcohol with ethylene (base). In the manufacture of pipes with an outer diameter of 20 mm, a thickness of the outer 1 and inner 2 layers of 1 mm and an intermediate layer thickness of 0.4 mm, fiberglass segments with a length of 0.3-0.6 mm and a diameter of 15-20 microns were used. The mixture of intermediate layer 3 included 20 wt.% Segments of fiberglass, with the amount of ethyl vinyl alcohol copolymer up to 100 wt.%.

The indicated geometric parameters of the pipe correspond to the condition mentioned above: the ratio of the thickness of the intermediate layer to the sum of the thicknesses of the outer and inner layers is 0.2-0.7.

In accordance with the above, acceptable results were obtained using fiberglass segments with a length in the range from 0.3 to 15 mm, and a diameter of 10-50 microns with a possible content of the intermediate layer 3 in the mass of the mixture from 15 to 29 wt.% Segments fiberglass. Pipes with outside diameters ranging from 20 to 225 mm can be manufactured. These are the most common sizes. It is also possible to manufacture pipes with parameters lying outside the specified ranges, but subject to the requirements specified above for all cases of the implementation of the utility model.

The adhesive layers 4 and 5 were made of a polymer-based acrylic material, but other acceptable compositions can be used for them, which was also noted above. A multilayer pipe for water supply and heating systems is manufactured according to well-known technologies for the manufacture of multilayer pipes from thermoplastic materials.

Claims (4)

1. A multilayer pipe for water supply and heating systems, made in the form of the outer and inner layers of thermoplastic material, between which there is an intermediate layer interfaced with the outer and inner layers through adhesive layers, while the outer and inner layers are made of polypropylene by a random copolymer with ethylene having an amorphous-crystalline structure, including hexagonal crystallites and monoclinic crystallites, and / or from polypropylene by a random copolymer with ethylene having amo an rfno-crystalline structure, including crystallites of only a monoclinic structure, and the intermediate layer is made of a mixture of a copolymer of ethyl vinyl alcohol as a base with fiberglass segments having a length in the range from 0.3 to 15 mm and a diameter of 10-50 μm as a filler which are contained in an amount of 15-29 wt.%, while the ratio of the thickness of the intermediate layer to the sum of the thicknesses of the outer and inner layers is 0.2-0.7, and the outer diameter of the pipe lies in the range from 20 to 225 mm. 2. The pipe according to claim 1, characterized in that the copolymer of ethyl vinyl alcohol with ethylene is used as the basis for the intermediate layer. 3. The pipe according to claim 1, characterized in that the adhesive layers are made of a material based on a polymer acrylic base. 4. The pipe according to claim 1, characterized in that the adhesive layers are made of a material based on a polymer vinyl acetate or vinyl chloride base.